We introduce SCALER, a two-pronged strategy utilizing digital resources for refining intrinsic evolution of analog computational circuits. A Self-Scaling Genetic Algorithm is proposed to adapt solutions to computationally-tractable ranges in hardware-constrained analog reconfigurable fabrics. Differential Digital Correction is developed utilizing an error metric computed from the evolved analog circuit to reconfigure the digital fabric intrinsically thereby enhancing precision. We demonstrate our methods by evolving square, square-root, cube, and cube-root analog computational circuits on the Cypress PSoC-5LP System-on-Chip. Results indicate that the Self-Scaling Genetic Algorithm improves an error metric on average 7.18-fold, up to 12.92-f...
Due to fundamental physical limitations, conventional digital circuits have not been able to scale a...
As the integrated circuit (IC) technology advances into smaller nanometre feature sizes, a fixed-err...
As the integrated circuit (IC) technology advances into smaller nanometre feature sizes, a fixed-err...
Intrinsic evolution of reconfigurable hardware is sought to solve computational problems using the i...
Energy and performance improvements of continuous-time analog-based computation for selected applica...
Analog circuits, while being replaced by digital circuits in many cases, remain very important in hi...
Published version of an article in the journal: Mathematical Problems in Engineering. Also available...
Genetic Algorithm has been used to solve wide range of optimization problems. Some researches conduc...
This article introduces an evolution-based methodology, named memetic single-objective evolutionary ...
Optimization of analogue neural circuit designs is one of the most challenging, complicated, time-co...
This article introduces an evolution-based methodology, named memetic single-objective evolutionary ...
The world, we live and will live in the future, is Analog. Everything we can see, hear and perceive ...
This paper investigates a hybrid evolutionary-based design system for automated sizing of analog int...
Abstract- This paper proposes a system of evolving analog circuit based on a variable length chromos...
The analog circuit sizing can be viewed as a constrained optimization problem. Evolutionary algorith...
Due to fundamental physical limitations, conventional digital circuits have not been able to scale a...
As the integrated circuit (IC) technology advances into smaller nanometre feature sizes, a fixed-err...
As the integrated circuit (IC) technology advances into smaller nanometre feature sizes, a fixed-err...
Intrinsic evolution of reconfigurable hardware is sought to solve computational problems using the i...
Energy and performance improvements of continuous-time analog-based computation for selected applica...
Analog circuits, while being replaced by digital circuits in many cases, remain very important in hi...
Published version of an article in the journal: Mathematical Problems in Engineering. Also available...
Genetic Algorithm has been used to solve wide range of optimization problems. Some researches conduc...
This article introduces an evolution-based methodology, named memetic single-objective evolutionary ...
Optimization of analogue neural circuit designs is one of the most challenging, complicated, time-co...
This article introduces an evolution-based methodology, named memetic single-objective evolutionary ...
The world, we live and will live in the future, is Analog. Everything we can see, hear and perceive ...
This paper investigates a hybrid evolutionary-based design system for automated sizing of analog int...
Abstract- This paper proposes a system of evolving analog circuit based on a variable length chromos...
The analog circuit sizing can be viewed as a constrained optimization problem. Evolutionary algorith...
Due to fundamental physical limitations, conventional digital circuits have not been able to scale a...
As the integrated circuit (IC) technology advances into smaller nanometre feature sizes, a fixed-err...
As the integrated circuit (IC) technology advances into smaller nanometre feature sizes, a fixed-err...